JPH1040207A - Method and device for generating configuration file - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simplify the environment setting of a network device. SOLUTION: Configuration scripts 12 stored in a memory sub-system 6 respectively includes a connection rule, etc., for constructing the respective types of configuration files 22 of the network device 26. When connection rule of the configuration script corresponding to two network entites permits the connection of the two network entities which are displayed by an icon in work space in response to an input which is supplied with a user interface 9, a software module executed by a processor sub-system 4 connects them so as to construct the configuration file. The environment setting of the network device is enabled through the use of the constructed file.

Description

DETAILED DESCRIPTION OF THE INVENTION

RELATED APPLICATIONS This application was filed on the same date as the present application, and was assigned to the assignee of the present application and has a co-pending name "CONFI."
GURATION MANAGER FORNETWO
RK DEVICES AND AN ASSOCIA
TED METHOD FOR PROVIDING
CONFIGURATION INFORMATION
THERETO, US Patent Application No. 08/403,
042 (Agent Docket, No. CMPQ-098)
6), which is incorporated herein by reference in its entirety.

[0002]

FIELD OF THE INVENTION This invention relates generally to computer networks and internetworks. More particularly, the present invention relates to a software tool for configuring a device incorporated in a computer network or internetwork.

[0003]

2. Description of the Related Art In general, a network is a combination of user devices and is broadly classified as a data terminal equipment (DTE) interconnected to realize bidirectional information exchange. For example, displays, computer systems, and office workstations are all categorized as DTEs. Local area network (LAN)
Means multiple computers distributed at one site
System interconnection. A wide area network (WAN) is an interconnection of multiple computer systems at multiple remote sites. Traditionally, computer systems have used modems to connect to the WAN over the public switched telephone network (PSTN) or the public data exchange network (PSDN). In recent years, WANs that interconnect computer systems using an integrated service digital communication network (ISDN) that allows data transmission without the need for a modem have become widespread. An internetwork is a combination of networks interconnected by a WAN.

[0004] In an initial stage when a device is shipped from a factory, its operating environment is unset. Configuration is a process of configuring the environment of an unconfigured device so that its hardware and software are organized and interconnected to perform the required tasks. As is well recognized by those skilled in the art, it is difficult to configure networks and internetworks because of the very wide variety of networks that are interconnected to form internetworks, and the variety of devices that are installed on networks. This requires highly detailed knowledge of the various networks and the protocols used to link to the various networks and the devices installed thereon. Therefore, the configuration of the network device should be such that the network administrator, especially the number of nodes, is between 100 and 1,
For those responsible for managing small to medium sized networks of the order of 000, in most cases this is a very demanding task. While such networks are relatively sophisticated and complex, the people who administer them often have very little training on internetworks and often do not have sufficient knowledge of routing and WAN technologies.

For example, the data link protocol is used for controlling access to a network. LANs typically use the Logical Link Control (LLC) protocol, which is a subclass of the High Level Data Link Control (HDLC) protocol, as its data link protocol. However, X. WA of 25 types of packet switching system
N uses the balanced link access procedure (LAPB), a protocol based on HDLC, as its data link protocol. On the other hand, an ISDN-type WAN may adopt either a connection-oriented protocol called frame switching or a non-connection protocol called frame relay.

[0006] Therefore, as is apparent from the above-mentioned current situation, there is a strong demand for simplification of the configuration work of network devices. Therefore, the equipment that should guide the user through the entire configuration of advanced and complex network devices,
It is an object of the present invention to provide a related method.

[0007]

SUMMARY OF THE INVENTION In one embodiment, the present invention is applied on a computer system to build a configuration file for a network device.
Devices and methods. The apparatus includes a configuration script stored in a memory subsystem of the computer system and a software module executable by a processor subsystem of the computer system. The configuration script contains a series of executable instructions for building a configuration file for a first specific type of network device. By executing the instructions contained in the configuration script, the software module creates a configuration file suitable for uploading to a first specific type of network device, and the network device uses the configuration file to upload the configuration file. It can be configured so that the environment can be set.

In one aspect of this embodiment of the invention, a configuration script includes a first section containing a series of configuration commands that generate an information request and respond to the information request. The information received by the software module is used to build a configuration file. In another aspect of this embodiment of the invention, the configuration script includes a set of connection rules for connecting a first specific type of network device to at least one other type of network device. Including a second section. In a related aspect, the first section includes a second section corresponding to each of the at least one network device of the other particular type, as defined in the connection rules contained in the second section of the configuration script. 1 part. Each of these parts contains a subset of the sequence of configuration commands contained in the first section of the configuration script. Each such subset of configuration commands is a network file that is the target of a configuration file being built.
Executed only when the device connects to one of the other specific types of network devices.

[0009] In another aspect, the configuration
The script further includes a third section that defines a backplane bitmap for the network device. In a related aspect, the third section of the configuration script further comprises:
Second and third parts are included. The first part defines a bitmap file for backplane bitmap generation, the second part provides location information about the connected interface on the backplane bitmap, and the third part Defining an overlay bitmap for the backplane bitmap of each of the at least one other network device of the particular type specified in the connection rules contained in the second section of the configuration script. In another related aspect, the configuration script further includes a fourth section containing a user selectable set of commands for each of the connected interfaces.

[0010] In another embodiment, the invention is a computer system for constructing a network configuration map comprising at least two interconnected network entities selected from among network entities. Applicable apparatus and method. The apparatus includes a series of configuration scripts, each of which is one of a series of network entities stored in a memory subsystem and a first executable by a processor subsystem. Corresponds to a software module.

Each of the series of configuration scripts includes a first section consisting of first and second parts. The first part includes icons for generating corresponding icons for a set of network entities.
The file contains, while the second part contains a set of connection rules for a corresponding one of the series of network entities. The software module creates a workspace (work area) and places at least two icons on the workspace in response to a first input received via a user interface;
Further, if the connection between the first and second network entities is represented by first and second icons represented by first and second icons.
If a set of connection rules contained in the second part of the configuration script corresponding to the network entity of the server permits, in response to the second input received via the user interface, A network configuration map is constructed by connecting the arranged first and second icons.

In one aspect of this embodiment of the invention, at least one of the series of configuration scripts further includes a series of executable instructions for building a configuration file of the network entity. A second section. In this aspect, the apparatus further comprises placing the configuration script on the network configuration map for configuration if the configuration script corresponding to the selected icon is one of the configuration scripts having the second section. A second software executable executable to build a configuration file by the processor subsystem in response to a third input received via the user interface by selecting one of the already-configured icons. Module included. The configuration file is constructed by executing the sequence of instructions contained in the second section of the configuration script and appending the constructed configuration file to the selected icon. In this further aspect, the sequence of instructions contained in the second section of the configuration script includes a sequence of configuration commands that generate a request for information, and a second software module responsive to the request for information. The information it receives is used to build a configuration file.

In this alternative aspect, the second section of the configuration script further comprises a set of connection rules defined in a first portion of the first section of the configuration script. A first corresponding to each one of the network entities
Including the part. This part contains the network files that are the targets of the configuration file being built.
One of a series of configuration commands executed only when an entity is connected to one network entity defined by a set of connection rules
Contains two subsets. In this still another aspect, the first section of the configuration script includes a third portion that contains the name of one of a series of network entities. During the construction of the network configuration map, if the icon corresponding to the configuration script is placed on the configuration map, the first
Software module places its name on the map.

[0014]

DETAILED DESCRIPTION FIG. 1A shows a computer system 2 suitable for installing a network device configuration tool. This computer system 2 includes a processor subsystem 4. The subsystem 4 includes, for example, Cali
Intel of Santa Clara, Fornia
Corporation, a Pentium processor of type P6, which is coupled to the memory subsystem 6. The subsystem 6
Is, for example, a hard drive or other auxiliary storage device that can store large amounts of data. The stored data is used by the processor subsystem 4.
The intervening system bus 8 is preferably a 32-bit wide peripheral device connection interface (PCI) bus. A user interface 9 is further coupled to the system bus 8. Usually, the user interface is composed of three types of peripheral devices. That is, a video display, a keyboard, and a pointing device.

FIG. 1B illustrates a network device configuration tool 10 constructed in accordance with the present invention. This will be described in detail below.
Network device configuration tool 10 is a graphical user interface (GUI) based on software that can be launched from a suitable platform installed on computer system 2. For example, Washingto
Microsoft's Wind, Redmond, n
ows95 and WindowsNT3.51 are network device configuration tools 1
0 is a platform suitable for starting.

In the broadest sense, the network device configuration tool 10 comprises one G
Prepare UI. This allows the network to be connected using a so-called “drag and drop” process.
Build a configuration map. This map is a series of interconnected network devices,
And / or consists of network entities, such as LANs, WANs, and other networks, through a combination of user input, network configuration maps, configuration scripts, and local configuration files. You.

[0017] Network configuration
In building the map, a series of local configuration files for the network device are built and appended to the network configuration map. Local configuration files include, for example, Internet Protocol (IP) addresses, default gateways,
Router name and Simple Network Management Protocol (SN
MP) community string
gs), for example, a network such as a router
Contains various information necessary for the device to properly communicate on the network.

For each network device for which a local configuration file has been built, the network device configuration tool 10 also provides one network device configuration suitable for export to the network device itself. You can build an application file. This scheme allows remote configuration of network devices.

As shown in FIG. 1B, a network device configuration tool 10 can be illustrated. That is, it is comprised of two software modules, a map editor 14 and a configuration guide 18, both of which are on a computer on which the network device configuration tool 10 is installed.
A processor for retrieving data and programming instructions in various areas within the memory subsystem 8 of the system 2;
The execution can be performed by the subsystem 4.

The data and programming instructions are stored in the map editor 14 and the configuration guide 1
8 are stored in the memory subsystem 6 as a series of files that can be selectively accessed by one or both. Files accessible by the map editor 14 and the configuration guide 18 include the configuration script 12, the map file 16, the local configuration file 20, and the network configuration file.
File 22. The configuration script 12 contains the network configuration
Identify network devices and network entity types that are located on the map and interconnected with other network entities and network devices. Configuration script 1
2 further specifies network devices that can be configured by the network device configuration tool 10, and has information necessary for constructing a configuration file of those network devices. If a certain network device does not have a configuration script, it is impossible for the network device configuration tool 10 to construct a configuration file. The map file 16 contains a series of network configuration maps, each of which is constructed using the network device configuration tool 10 and interconnected with a series of network configurations. Consists of devices and network entities.
The local configuration file 20 contains information that, when uploaded to a corresponding network device 26, enables the configuration of that device. If local
A configuration file 20 is built for the network device illustrated on one or more network configuration maps 16 that have been created using the network device configuration tool 10. If you have
Such local configuration files 20 are associated with corresponding network devices so that they can be accessed directly from the network configuration map 16.

Network configuration
File 22 is a network file that is coupled to the configuration tool in a manner described in detail below.
It is similar in content to the local configuration file 20, except that it has been formatted for uploading to the device 26. Generally, the local configuration file 20 is
The local file is modified so that it can be uploaded to the corresponding network device 26 by formatting it into the appropriate IP address for the target network device 26. Finally, Network Device Configuration Tool 1
0 is the local configuration file 2
0 and an inverse parser 24 coupled to the network configuration file 22. This reverse parser 2
4 is used to build a local configuration file 20 from a network configuration file 22 downloaded by the network device 26 to the network configuration tool 10.

The network device configuration tool 10 is installed in the computer system 2 operated by a network administrator;
And, although only one is shown in FIG. 1B for clarity, multiple network devices 26 and other network entities may be coupled to the network device configuration tool 10. Can be considered. Utilizing the network device configuration tool 10, a network administrator can create a typical network configuration map for the network. The network administrator then uploads the remote network devices by uploading a configuration file that is built during the process of creating a network configuration map for those devices.
Configuration (environment setting) can be performed. Thus, a network administrator can use a network configuration tool to design a properly configured network from a central location, and then to any number of remote locations, including that network. Devices can be configured.

The network device configuration tool 10 is provided by the boot protocol (bootp) / trivial file transfer protocol (TFTP) manager 30 via the asynchronous interface 28.
It is coupled to a network device 26. Under the control of an asynchronous manager (not shown), which is a software process in the processor subsystem 4, the asynchronous interface 28 is connected to an in-band (in-region) connection such as, for example, a terminal emulation protocol (TELNET). In-band transfer via 29a, or out-of-band, eg, modem
Used for exchanging configuration information, such as a network configuration file, by out-of-band transfer over connection 29b. Further, another software process within the processor subsystem 4, bootp / TFTP manager 30, controls the exchange of bootp and TFTP messages between network device configuration tool 10 and network device 26. . In general, the exchange by bootp is followed by a TF
Used for transferring RAW addresses and other basic information so that configuration information can be transferred using TP exchange. bootp / TFTP Manager 30
Also controls access to the bootptab (bootptab) file 32.

As described in further detail below with respect to FIG. 3, the configuration script 12 guides the construction of a configuration file for a selected network device 26, thereby guiding the configuration environment for that device 26. Map Editor 14 in Configuration and Configuration Guide 1
Used to indicate 8. With reference to FIG. 2A, the configuration script 12 that guides the configuration of the selected network device 26 will now be described in detail. As already understood, the configuration script 12 is comprised of a series of individual scripts 12-1 through 12-N, one for each type of device that is configured by the configuration tool 10. I have. 12-1 to 12-N
Each script includes an attribute section 34, a bitmap section 36, a bitmap menu section 38, and a guided configuration section 40. These sections,
That is, each of 34, 36, 38, and 40 is a set of commands that can be selectively executed.
Used during configuration of devices of the type corresponding to a particular script within N.

Referring now to FIG. 2B. Attribute section 3
4 is an icon part 34a, a network entity part 34b, a description part 34c, and a series of connection parts 3
4d-1 to 34d-N. A valid icon filename identifying the graphical icon associated with the device type corresponding to the configuration script 12-N is in the icon portion 34a. As will be described in more detail below, this icon is displayed in the device window of the configuration GUI, and is added to one workspace to add that type of device to the network configuration map. Can be dragged to
Network entity portion 34b uniquely names the type of device and is displayed below the icon in the device window. The description portion 34c includes a device
When the type is dragged onto the workspace of that network, a dialog box defines the description of the preexisting device. Finally, the connection part 34d
-1 to 34d-N prepare connection statements regarding the device type. More specifically, connection portion 34d includes a port, a modular slot, or other type of connection interface for a device type. Each connection statement is the physical name of that port or other type of connection interface,
And the network entity name for all other types of devices connected to that port. For example, if the network device has four PCI
A modular router having slots, each of which is an Ethernet, X.X. 25, assuming that it is connectable to Frame Relay, PPP, and ISDN type entities, and that the Ethernet port is connectable to one Ethernet entity, the attribute section 34 is coded as follows: : ATTRIBUTES ICON ROUTER.ICO NETENTITY "Compaq Router" DESCRIPTION "Modular and Fast" CONNECT "PCI SLOT 1""Ethernet""X.25""FrameRelay""PPP""ISDN" CONNECT "PCI SLOT 2""Ethernet""X.25""FrameRelay""PPP""ISDN" CONNECT "PCI SLOT 3""Ethernet""X.25""FrameRelay""PPP""ISDN" CONNECT "PCI SLOT 3""Ethernet""X .25 "" Frame Relay "" PPP "" ISDN "(Copyright of Compaq Computer Corporation 1995)

Referring now to FIG. 2C. The bitmap section 36 defines a "drill down" bitmap that is displayed to a network administrator in a "subsequent configuration" request for a configured network device. Bitmap section 36 further locates "hot spots" on the bitmapped and defines any required overlay bitmaps. A bitmap is a graphical representation of the backplane of a configured device that provides connection information for that port. A “hot spot” on the bitmap is a path to additional information related to a connected port for a configured device.

The bitmap file portion 36a contains a valid window bitmap file that is displayed in its own window when the network administrator double-clicks on a configured network device.
This is a format file. For each of the connected ports of the configured network device, the bitmap file portion 36a further includes a location port portion 36b-1 to 36 that locates the hot spot for that connected port on the bitmap.
b-N. Finally, the bitmap section is
For each type of network device or entity that can connect to the configured network device, an overlay device bitmap
Files 36c-1 to 36c-X are included. Thereafter, if the configured device is connected to that particular network entity, that network entity is represented on the bitmap.

For example, if the bitmap 36 is a bitmap file 36a, the port positions 36b-1 and 36b-
2, and overlay device file 36c-1
If it consists of, it is written as the following sample code: ITMAP "router.bmp" LOCATE "Slot 1" 20 40 LOCATE "Port 1" 50 90 70 120 OVERLAY "Ethernet""TLAN.BMP" (Copyright of Compaq Computer Corporation 1995)

An "Ethernet" type network
If the entity is inserted in "Slot 1"
The bitmap 36 is a ROUTE of coordinates 20 and 40.
R. TLAN. Above the representation of the router backplane stored in the BMP. Contains representations of Ethernet type network entities stored in the BMP.

Bitmap menu section 38
Defines the menu hierarchy that is displayed to the user on the bitmap, for example, for hot spots such as connected slots, and the commands that can be executed for each item included in the command menu. The command menu is displayed when the network administrator clicks on a connected slot on the bitmap. Bitmap menu section 38 contains the network
Entity command section 38a-1 to 38
It is further divided into aX. More specifically, for each network entity that is allowed to connect to the device, if that network entity is connected to the device, the commands defined in this section will be executed by the network administrator for selective execution. As shown in the corresponding network entity
A command section is provided.

The guided configuration section 40 includes a plurality of G's that are used to guide the user through the task of configuring the device.
Define the UI and control the configuration file that the user builds in response to the GUI. FIG.
As shown in FIG. 3D, the guided configuration section 40 includes a general script command section 40a and a port script command section 40, one for each port to which the device can be connected.
It is further divided into b-1 to 40b-N. Cisco 25
A guided configuration script for a 14 router is shown by way of example in Appendix A, which will be described in more detail below in connection with FIG. 3D.

Returning to FIG. 1B, the network device configuration tool 10 will now be described in more detail. In general, the map editor 14 delegates to a configuration guide 18 the task of configuring unconfigured devices located on the network configuration map, while generating a map of the network configuration. Control. At the beginning of the configuration process, the map editor 14 may selectively search the map file 16 for editing, or
Or create a blank map. To add a device of the selected type to the network configuration map, the map editor 14 retrieves the corresponding configuration script 12-N from the configuration script 12 and retrieves the retrieved configuration script 12-N. Using the information contained in N, place the unconfigured device of the selected type on the network configuration map and add the device name to the map. The map editor 14 performs all the processing that is planned to edit the network configuration map. For example, if a connection between two devices located on a network configuration map is required, map editor 14 examines the configuration script for those devices and checks the connection between the two devices. Is permitted, map editor 14 completes the requested connection and appends the connection information to the network configuration map.

Network configuration
Upon receiving a configuration request for one device located on the script map, map editor 14 forwards the name and connection information for that device to configuration guide 18 and performs the required configuration tasks. Instruct configuration guide 18 to perform. For example, if the configuration of one network device is requested, the configuration guide 18 searches the configuration script 12-N for a network device of that type and retrieves its guided configuration. • Execute the instructions contained in section 40. Using a configuration script 12, map editor 14, and information provided from input provided by a network administrator in response to execution of the instructions contained in the guided configuration section 40, a configuration guide is provided. 18 builds a local configuration file associated with the device, which is used by a network administrator and a corresponding network configuration file suitable for uploading to the network device. -Enable device environment settings.

Referring now to FIG. 3, the method of building a configuration file on a network device and guiding the configuration of the network device, which is the subject of the present invention, will now be described in detail. However, it should be clearly understood that the procedures shown are purely exemplary and should not be construed as limiting the scope of the invention. The method comprises step 42
, Where the network device configuration tool 10 is installed on Windows 9
5, an icon designated in advance as a route to the network device configuration tool 10 is selected and activated.

After startup, prior to step 44, the network configuration tool 10 generates a configuration manager GUI 100 (see FIG. 7), which prepares a network workspace 102 and a device window 104. I do. In the network workspace 102, one map can be created consisting of any number of interconnected network devices, each having one configuration associated with itself. The device window 104 displays all the various types of network devices that can be placed on the network workspace 102. Subsequently, the process proceeds to step 46. Here, one configuration script 12-N is already prepared for each, and for each of the various types of network devices stored in the memory subsystem 6, a network script is created.
The device configuration tool 10 places an icon representing the type of the network device in the device type window 104, and displays the type of the network device that can be configured by the network device configuration tool 10 by the user. To be displayed. For example, the device shown in FIG.
The window 104 includes a display icon of a PPP link, a modular router of a specific vendor, and an ISDN type WA.
N, Ethernet type LAN, non-specific vendor computer system, X. It includes a 25-type packet-switched WAN and an ISDN-type WAN that receives a frame relay mode service. Step 4
At 8, the network device configuration tool 10 loads a blank map into the network workspace 102. At this stage, the network
The device configuration tool 10 has completed loading the configuration manager GUI 100 and is ready to execute the selected command in response to input received via the user interface 9 from the network administrator. is there.

Proceeding to step 50, the network administrator enters a command from one of the pull-down menus listed on pull-down menu bar 108 or by pressing a command button displayed on command button bar 110. Select one. The menus displayed on the pull-down menu bar 108 are “File”, “Edit”, “Network”, “Window”, and “Help”. 1 from these menus
Selecting one displays a series of commands, each associated with the selected menu. Available commands for the file include "new", "open", "save", "save as", "print", "print settings", and "end". When a new command is selected, the network workspace 102 clears the network configuration map, if one exists, and clears the workspace. Selecting the open command allows the network administrator to select a network configuration map to be placed on the network workspace 102. Save and Save As commands are available in Network Workspace 1
02 is stored in the memory subsystem 6. The print command prints a network configuration map located on the network workspace 102. The print setting command displays the printer environment settings for the computer system 10. The exit command closes the network configuration tool.

Commands available under the edit menu are "drawing mode", "movement mode", "workspace property", "device editing", "device display / environment setting", "device deletion", "device deletion", and “Environment settings with all ports connected”, “Update environment settings”, “Search configuration file”, “Associate environment settings”, and “TELNET to this device”. The drawing mode command allows the network administrator to draw a line between the devices displayed in the network workspace 102. The workspace properties command is actually a second pull-down menu that allows the network administrator to tailor the map located in the network workspace 102. The commands available under the workspace properties menu are "show entity name", "show entity description", "show entity connection", "show IP address", and "show IPX address", which are All the listed information is added to the display of each device on the map, and there are also "Snap to Grid" and "Grid Display", both of which orient the map to one grid.

The device edit command accesses configuration information associated with the selected network device. The View / Configure command displays a backplane view of the selected configured network device or, if the selected network device is unconfigured, the configuration Make dialog the default. The delete device command removes the selected network device or entity from the network workspace. The configuration file in which all ports are connected, and the configuration file can be updated, so that the configuration file of one selected device can be accessed. The configuration file search allows the network administrator to directly access the configuration files stored in the memory subsystem 6, while the equivalent configuration commands allow the network administrator 1
One configuration file can be added to one device. TELNET to device
Commands are sent from the network device configuration tool 10 to the network device 26.
Start in-band transfer of environment setting information to.

The commands available under the network menu are: "bootptab management", "enable bootp server", "disable bootp server", "enable TFTP server", "disable TFTP server", and "network TFTP server". Log display ". All of these commands relate to the exchange of configuration information between the network device configuration tool 10 and the network device 26. More specifically, bootp
The tab management command allows a network administrator to inspect a previously constructed bootptab file 32. Enable / Disable boot
The p-server command indicates that the network device configuration tool 10 has a bootp server,
That is, the computer system 2 operating as a server capable of transmitting and / or receiving bootp messages via the bootp / TFTP manager 30.
Control the operation of. When enabled as a bootp server, the computer system 2 sends the device requesting the configuration information to the booth on the network.
It is ready to listen to tp requests. The enable / disable TFTP server command is transmitted to the network device configuration tool 10 by the TFTP server command.
P server, ie, TFTP message to bootp / T
It controls the operation of the computer system 2 operating as a server capable of transmitting and / or receiving via the FTP interface 30. Finally, the display network activity log command displays a step-by-step record of the communication between the network device configuration tool 10 and the network device that requested the configuration.

The commands below the window menu are "Organize", "Configuration File", "Workspace", "Router Request", and "Network Device". The Organize command is a pull-down menu that provides a set of commands to modify the appearance of the configuration manager GUI 100. The configuration file command displays a configuration file stored in the memory subsystem.
The workspace command and the network device command display the workspace 102 and the device window 104. Finally, the router request command is sent to the network device command tool 1
Output a list of network devices 26 requesting the IP address and command file from 0.

The command button bar 110 can be used to select an available command from the pull-down menu 108 and execute it immediately. The commands that can be executed from the command button bar 110 are new, open, save, print, draw mode, move mode, network device, workspace, router request, network activity log display, and help.

Proceeding to step 52, the network administrator executes the command selected in step 50. For example, if the network administrator intends to retrieve an existing network configuration map stored in memory, the network administrator
Clicking on the "Open Map" command button on the button bar will display a list of map files 16 stored in memory, from which one can select one map file to open. An exemplary network configuration map 106 that can be stored in memory is shown in FIG. The network configuration map 106 consists of devices from specific vendors, here modular routers from Compaq Computer, Inc. of Houston, Texas. The modular router includes a first peripheral equipment interface (PCI) slot coupled to a first Ethernet type LAN 114, a second PCI slot coupled to a second Ethernet type LAN 116, a frame relay type. WAN1
A third PCI slot coupled to a LAN 18 and one Ethernet port coupled to a third Ethernet type LAN 120.

Next, proceeding to step 54, the network manager determines whether or not to edit the network configuration map 106 displayed on the network workspace 102. If the network administrator decides not to edit the network configuration map 106, the process proceeds to step 56, where the network administrator determines whether to execute another command.
If execution is determined, the process returns to step 56. Otherwise, the network administrator closes the network configuration tool at step 58 and ends the process.

In step 54, the network administrator decides to edit, and the network workspace 10
2 and a blank map initially loaded into the network workspace 102 in step 48, or a saved map retrieved from the map file 16 by executing the "open file" command in step 52. If any of the maps are to be edited in step 52, the maps loaded into the network workspace at step 52, the process proceeds to step 59 (FIG. 4) where the network administrator is displayed in the network workspace 102. To edit the existing map. If the network administrator decides not to edit the map, the process returns to step 56 (FIG. 3). However, if the network administrator decides to edit the network configuration map 106 displayed in the network workspace 102,
The process proceeds to step 60, and editing of the map is started.

In step 60, the network administrator selects one of the device types displayed in the device type window 104 and maps one device of the selected type to the map displayed in the network workspace 102. 106 can be added.
Proceed to step 62 to enter device type window 1
To add a device of the type shown in FIG. 04 to the network configuration map 106 displayed in the network workspace 102, the user selects the icon representing the device type sought and clicks “ The "drag and drop" process places the icon on the network configuration map 106 displayed in the network workspace 102. For example,
Using a mouse or other common pointing device, the user points to the icon representing the desired device type, presses the leftmost button on the mouse to select that device type, and then press and hold that button to map Point to an arbitrary position on the screen and release the button. By doing so, a new device of the selected type is added to the network map. For example, in FIG. 10, a single network device, a modular router 122 manufactured by Compaq Computer, and two network entities, an Ethernet type LAN1
24 and 126 have been added to the network configuration map 106.

Network configuration
Each of the network devices and / or network entities added to the map 106 is associated with a corresponding one of the configuration scripts 12-N. Thus, in step 64, map editor 14 displays the name of the network device or entity in attributes section 34 of the corresponding configuration script 12-N as the name of the newly added network device or entity. I do. For example, the name of the network device 122 added to the network configuration map 106 is “Compaq router”.

When network device 122 and entities 124 and 126 are left unconnected, they are placed on network configuration map 106 or, at step 60, network configuration map 106 contains If it is determined that no devices or entities are to be added, the process proceeds to step 66 where the network administrator determines that the newly added network device and entity 12 have not been added.
2, 124 and 126 to connect to other network devices or entities. For example, a network administrator may configure a Compaq router 122 with a frame relay type WAN 11.
8. Connection to the Ethernet type LAN 124 and the Ethernet type LAN 126 can be determined. If the network administrator decides to connect the Compaq router 122 to the Ethernet type LAN 124, the process proceeds to step 68, where the network administrator points to the Compaq router 122 with a mouse and presses the leftmost button of the mouse. Press to select it, then hold the button down and re-point to Ethernet-type LAN 124 to draw a line between Compaq router 122 and Ethernet-type LAN 124, then release the button to connect Complete.

The process then proceeds to step 70 where the map editor 14 determines whether the planned connection is permitted. If the planned connection is acceptable, the line drawn by the network administrator is completed at step 72. Then, one or more connection interfaces for the connecting device are placed on the network configuration map 106 and the method proceeds to step 74 where the network configuration map 106 is further edited. For example, as shown in FIG. 10, PCI slot 1 of the Compaq router connects the device to an Ethernet type LAN 126, PCI slot 2 connects to a frame relay type WAN 118, and a PCI slot. 4 is used to connect to the Ethernet type LAN 124. However, if the planned connection is not allowed, before proceeding to step 74, the line drawn by the user
6 is deleted.

Returning to step 70, the manner in which the map editor 14 determines whether a planned connection is acceptable will be described in further detail. The first decision to allow or disallow a planned connection is made based on the contents of the attributes section 34 of the configuration script 12-N for the device located on the map 106. For example, the configuration script for the Cisco 2514 router is shown in the attachment.
Part of the attribute section of the configuration script contains the following description: CONNECT "ETHERNET0""Ethernet" CONNECT "ETHERNET1""Ethernet" CONNECT "SERIAL0""X.25""FrameRelay""PPP""HDLC" CONNECT "SERIAL1""X.25""FrameRelay""PPP"" HDLC "(Copyright of Compaq Computer Corporation 1995)

This portion of the configuration script code contains considerable connection information about the device. More specifically, this device has four connection interfaces. That is, two Ethernet ports and two serial ports. In addition, these two Ethernet ports can only be connected to Ethernet type LAN entities and devices, while the two serial ports are X.100. 25, can only connect to Frame Relay, PPP, and HDLC entities. Then, in step 70, the mapper (mapper) compares the list of types of network devices or entities that can be connected to the two devices and / or entities for which connection is planned. If the devices and / or entities are connectable, the method proceeds to step 72
Where the connection of these two devices and / or entities is performed.

Referring to FIG. 6, the steps of connecting these two devices and / or entities will now be described in further detail. The process includes, in steps 150-152, a configuration of the connecting device or entity to determine if the connecting device or entity has available slots available for connection to the connected device or entity. The file is inspected and step 1
At 54, the configuration / configuration of the connected device or entity is determined to determine whether the connected device or entity has available slots available for connection to the connecting device or entity.
The file is inspected. If there is no available slot in either the source or destination device or entity to connect to the other device or entity, a determination is made in step 156 that the device / entity is unreachable. The planned connection is then deleted in step 158 and step 166
Then, the process returns to step 72.

Returning to step 154, if it is determined that both the source and destination devices or entities have available slots, the process proceeds to step 16
Proceeding to 0, the source connection interface is selected, and further to step 162, where the connection interface of the destination device or entity is selected. In both of these steps, the network administrator can arbitrarily select from a list of overlaid (overlapping) available connection interfaces on the network configuration map 106 by the network device configuration tool 10. it can. However, if only one connection interface is available for a device or entity, the map automatically selects an available interface and displays the selected connection interface to the network administrator. Upon completing the selection of the connection interface for the device or entity, the process proceeds to step 164, where the connection interface selected for device 122 is displayed on network configuration map 106, and then to step 72. Go to step 166 to return.

This occurs when it is determined in step 66 that the device or entity is not to be connected, the planned connection is completed in step 72, or the planned connection is deleted in step 76. The process proceeds to step 74 where the network administrator determines whether to configure the device. To start the configuration of the selected disconnected device,
The network administrator double-clicks on the device whose environment is to be set. In step 78 (FIG. 5), the configuration guide 18 searches the guided configuration section 40 from the configuration script 12-N for the type of device to be configured, and proceeds to step 80 to be guided. The general script command included in the general (general) script command portion 40a of the configuration section 40 is executed. The execution of the script command generates a plurality of questions to be asked of the network administrator, and the answers to those questions are used to construct a configuration file. For example, if the script command described in the guided configuration section of the configuration script described in Appendix A is executed during configuration of the Cisco 2514 router, the router's naming, Internet Protocol (ie, I
P) instructions on how to set up, instructions on the IP routing protocol to be used for the router, instructions on how to set up IPX on the router, instructions on whether the router should be protected with a password, and selection of a password for the router The network administrator is required to instruct whether or not the environment setting mode of the router should be protected with a password, and to select a password for the environment setting mode.

Proceeding to step 82, the configuration guide 18 determines whether any ports of the device being configured are connected to a second device or entity. If any ports are connected, the process proceeds to step 84, where configuration guide 18 executes a script command for those connected ports. For example, the serial port 1 of Cisco 2514 is WA
If connected to N, the configuration guide 18 executes the script command described in the Serial 1 portion of the script command described in Appendix A. Thus, in this example, the network administrator determines how to set up the serial port, determine the IP address and mask for that port, the IPX network number, whether to set up the port for frame relay, and use the port for that port. The type of connector, the local data link connection identifier (ie, DLCI), the acceptable information rate (ie, CIR) and excess information rate (ie, EIR) for that port, and whether compression is employed.

The configuration guide 18
Gather information needed to configure the device by interacting with the network administrator. That is, during that dialog, the configuration guide 18
Generate I. Each of the GUIs displays an information request,
Then, an area where the requested information is to be input, and various buttons for guiding the network administrator over the entire dialog are prepared. As an example, the IP address G
The UI 200 is shown in FIG. The network administrator assigns the IP address and mask to areas 202 and 20 respectively.
By entering in 4, the designated slot and the IP address and mask of the device can be entered. The network administrator further presses button 206 to re-examine the previous GUI in the dialog, press button 208 to advance to the next GUI in the interaction, press button 210 to request help, press button 21
Press 2 to exit the configuration dialog.

When the execution of the script command for the connected port is completed in step 84, or when it is determined in step 82 that the port is not connected to the device whose environment is being set, the environment setting dialog box is displayed in step 86. Complete. And step 8
At 8, the information provided by the network administrator during the dialog is used to build a local configuration file 20 for the device. If necessary, at step 90 the network administrator can view and examine the local configuration file 20 constructed during this process, and save the local configuration file 20 to the memory subsystem. Then, at step 92, any of the configuration commands contained in the file can be edited directly before associating it with the device. Also, its local
A selected portion of the configuration information contained in the configuration file 20 can be displayed on the network configuration map 106. For example, FIG. 10 shows that the network administrator sets the PCI of the Compaq router in the environment setting of the device.
The display of the IP address and mask input for slot 1 is shown. The network configuration map 106 further includes an indicator 128, such as a loop around one device, indicating that the device has been configured.

Once the construction of the local configuration file 20 has been successfully completed and associated with the device being configured, the process proceeds to step 96 (FIG. 4), where the network administrator Determine whether to upload the configuration file to the device. If so, the process proceeds to step 97 where the constructed configuration file is uploaded to the network device 26. When uploading the constructed configuration file to the network device 26, various mechanisms can be used. For example, in many situations, in-band transfer of configuration files via TELNET can be applied. In other situations, it may be necessary to transfer configuration information to the network device 26 using other mechanisms described in detail below.

While building the local configuration file, the network device configuration tool 10 also builds a bootptab file for the device. boo
The tptab file is such that when the construction of the configuration file is completed, the network device is unconnected, powered off, or unavailable for some other reason, and the network administrator has abandoned uploading it. It is especially useful in situations. The contents of the bootptab file for one device include the serial number of the device to be configured, the IP address assigned to the device to be configured, and the configuration file to be uploaded to the device. As described in more detail below with respect to FIG. 11 and FIG.
The b-file provides the necessary information to remotely control network settings for remote network devices when they are connected to the network.

Returning to FIG. 4, after completing the upload of the configuration file in step 97, or if the network administrator decides not to upload the configuration file in step 96, this processing is performed in step 97. Proceeding to 98, the network administrator determines whether to perform subsequent configuration of one device on the network configuration map 106. If the subsequent configuration of the device is determined, this method will
Proceeding to 9, the subsequent configuration of the selected device is performed from the backplane bitmap of the selected device. To select a device for subsequent configuration, the network administrator double-clicks on one of the configured devices in the network configuration map 106, thereby selecting the device. The backplane bitmap of the configured device is displayed.

FIG. 9 shows the Compaq router 1 shown in FIG.
FIG. 2 illustrates a backplane bitmap 220 for 22. As shown here, the unconnected connection interfaces and the various connection interfaces used to connect this router 122 to multiple network entities include the configuration script 12 associated with the Compaq router 122. It is graphically displayed on the backplane bitmap 220 using the information contained in the −N bitmap section 36 and the local configuration file 20. More specifically, Compaq
For router 122, PCI slot 1 is used to provide a first Ethernet connection 222;
PCI slot 2 provides an HSSI connection 224 and PCI slot 4 provides a second Ethernet connection 226. However, PCI slot 3 remains unconnected. On the backplane bitmap 220, the network administrator can double-click on a selected port to see the settings for that port, or press the right mouse button to see a pull-down menu of commands. Commands on this menu are available in the network entity command section 38a of the bitmap menu 38 for the network entity connected to the selected port.
This is the command contained within -x. Then, any one of the commands listed in this pull-down menu can be selected and executed.

If the subsequent configuration of the device has been completed in step 99, or if the network administrator has abandoned the subsequent configuration in step 98, the process returns to step 56 (FIG. 3).

Referring now to FIG. 11, a method for transmitting configuration information to the network device 26 according to the present invention will now be described in further detail. The method begins by activating the network device configuration tool 10 at step 250. As described above with reference to FIG. 3, the activation of the network device configuration tool 10 activates the configuration manager GUI 100. Further, the activation of the network device configuration tool 10 causes the network device configuration tool 10
Is an unconfigured network on the network
The system starts monitoring the presence or absence of the device 26.

Proceeding to step 254, the network device configuration tool 10 detects a bootp packet transmitted over the network, and the bootp packet requests environment setting information from the network device configuration tool 10. It is determined whether the sending device is the sending device. More specifically, when an unconfigured network device 26 is launched on the network, the unconfigured network device 26 periodically sends out bootp packets, including the media of the device. Contains an access code (ie, MAC) address and a code indicating that the device is requesting configuration information. For example, the code is placed in the specific vendor's bootp packet field. If the detected bootp packet does not include a request for configuration information, the method proceeds to step 252.
And the configuration tool is bootp
Continue monitoring packets.

However, in step 256, the network device configuration tool 10
Compares the request code held by the network device configuration tool 10 with the corresponding code included in the detected bootp packet, and the device that transmitted the packet requests the environment setting information. If so, the method proceeds to step 2
Proceeding to 58, the network device configuration tool 10 determines whether the device requesting the configuration information has a corresponding bootptab file 32 and a description of the device requesting the configuration information configuration·
It is determined whether the device matches the device drawn on the map 106.

Determine whether the device requesting the environment setting information has the corresponding bootptab file 32 and whether the description of the device matches the device drawn on the network configuration map. To do so, the attribute section 34 must be modified to add two parts, bootpid and subdeviceid. b
The outpid portion contains a unique number for a particular device type and model number. The subdeviceid part identifies the type of device group installed in the device. For example, the network
Devices are Ethernet, X. 25. A modular router with four PCI slots that can connect to Frame Relay, PPP, and ISDN type entities, and a Thunder Lan board that can connect to Ethernet entities.
One Ethernet port, X. 25, if one W adapter connectable to the frame relay and PPP entities and one base rate ISDN board connectable to the ISDN entity are installed therein, the attributes section 34 will be: Described:: ATTRIBUTES ICON ROUTER.ICO NETENTITY "Compaq Router" DESCRIPTION "Modular and Fast" CONNECT "PCI SLOT 1""Ethernet""X.25""FrameRelay""PPP""ISDN" CONNECT "PCI SLOT 2 "" Ethernet "" X.25 "" Frame Relay "" PPP "" ISDN "CONNECT" PCI SLOT 3 "" Ethernet "" X.25 "" Frame Relay "" PPP "" ISDN "CONNECT" PCI SLOT 4 """Ethernet""X.25""FrameRelay""PPP""ISDN" CONNECT "Ethernet Port""Ethernet" bootpid 103 subdeviceid 11 "ThunderLan board""Ethernet" subdeviceid 12 "W-Adapter""X.25" * 2 "Frame Relay" * 2 "PPP" * 2 Subdeviceid 13 "Basic Rate ISDN Board""ISDN" (Copyright of Compaq Computer Corporation 1995)

The guided configuration section is similarly modified to include additional command script portions. Executing the command script portion will match the description of the device requesting configuration described herein, for example, the installed device, with the device depicted in the network configuration map 106. A request is made to add information necessary for constructing the bootptab file so that it can be used for any determination.

Proceeding to step 260, if there is a bootptab file that matches the device requesting the environment setting, that is, the bootpid that the bootptab file has matches the serial number of one device that has one bootptab file, Furthermore, the subd of the configuration file corresponding to the bootptab file in which the device group installed in the device requesting the environment setting matches
If the devices identified in the deviceid portion match, the network device configuration tool 10 returns to step 260
Send response. In the bootp response, the matching b
A file name that matches the configuration file described in the optab file is included. In step 262, using the file name included in the bootp response, the device requesting the environment setting sends the TFTP request of the environment setting information to the network device configuration tool 1.
0, the network device configuration tool 10 identifies a configuration file with the configuration information.

The process then proceeds to step 264 where the TFT containing the file name of the configuration file sent by the device requesting the environment settings
In response to the P request, the network device configuration tool 10 sends out the requested configuration file for the device. In step 266, the unconfigured network device configures itself using information contained in the configuration file transmitted by the network device configuration tool 10, and Step 26
At 8, the method ends, returning to step 258, if the device requesting configuration does not have a matching bootptab file, the method proceeds to step 270, where the network device configuration tool 10 is the GUI of the configuration manager
A pop-up request device GUI 300 that overlays a portion of 100 is generated. FIG. 12 shows the request device G.
The UI 300 is shown. As shown therein, the request device GUI 300 displays one icon representing the unconfigured network device 302 requesting the configuration.

Proceeding to step 272, the network administrator can select one of two options for configuring the environment of the device requesting the configuration.
If the network administrator determines that the device 302 is a new device, the requesting device is dropped onto the network workspace 102 so that the requesting device is placed in the network configuration The device is added to the map 106 as an unconnected device. Proceeding to step 274, the method returns to step 64 (FIG. 4), where the configuration
The process of building a file and uploading to an unconfigured device can be completed, and the device requesting the configuration can be configured.

Returning to step 272, step 2
Proceeding to 76, another option is for the network administrator to place the device 302 requesting configuration on an existing device that is already included in the network configuration map 106, such as the router 112. Can be dropped. By dropping the device 302 requesting the configuration onto an existing device on the network configuration map 106, the network administrator can confirm that the device 302 requesting the configuration has the network configuration map 106. It shows that it is the same as the device already existing above. However, bo
Description of device 302 in ottab and device 112 in configuration file
Cannot be recognized by the network device configuration tool 10 as being the same device.

Proceeding further to step 278, the network device configuration tool 10
The configuration file for the device and b
Match the autopptab files. If these two matches are not possible, the method ends at step 280. If these two matches are possible, step 28
2 so that the configuration file is appropriately revised and the network device configuration tool 10 can send the revised configuration file to the device 302 in the manner described above. Returns to step 264. To match the device 302 requesting configuration with an existing device, such as the router 112, the network device configuration tool 10 uses the device installed on the device requesting configuration. Check if the group matches the devices installed on the latter device. If the installed devices match, then the configuration file is modified using the contents of the bootptab file. The method proceeds to step 264 so that the network device configuration tool 10 can send the revised configuration file to the device 302 requesting configuration.

As described above, an apparatus and a method for constructing a configuration file suitable for uploading to a network device and enabling the environment setting of the network device have been described and illustrated. Those skilled in the art will recognize that numerous modifications and variations other than the techniques illustrated in detail are possible without departing significantly from the idea of the invention. Therefore, it is to be expressly understood that the form of the invention described herein is illustrative and is not intended to limit the scope of the invention.

[0073]

[Attachment] Attachment A File: 2514.DEV: ATTRIBUTES ICON ROUTER.ICO NETENTITY "Cisco 251411" DESCRIPTION "Cisco IOS" CONNECT "ETHERNETO""Ethernet" CONNECT "ETHERNET1""Ethernet" CONNECT "SERIALO""X.25"" Frame Relay "" PPP "" HDLC "CONNECT" SERIAL1 "" X.25 "" Frame Relay "" PPP "" HDLC ": GUIDED-CONFIG use 2514vars.use frame askstring routername" What do you want to name this router ? "minlen 2 maxlen 20 savefilename $ routername" -confg "addconfig" hostname "$ routername frame radio configip" Do you want to configure IP on this router? "" Yes "" No "if $ configip =" Yes "then frame radio routeprot "What IP routing protocol do you want to use?""RIP""IGRP" addconfig "!" addconfig "! IP routing protocol to use" addconfig "!" addconfig "router" $ routeprot endif frame radio configipx "Do you want to configure IPX on this router? "" Yes "" No "if $ configipix =" Yes "then addconfig"! "addconfig"! Enable IPX routing "addconfig"! "addconfig" ipx routing "addconfig"! "frame radio yesno" Do you want password protect configuration mode? "" Yes "" No "if $ Yesno =" Yes "then askpass enablepassword" Enter password for configuration mode "minlen 5 maxlen 20 addconfig"! "addconfig" enable password "$ password addconfig"! " endif endif frame addconfig "!" addconfig "no ip domain-lookup" addconfig "!"; ETHERNETO frame assign portname "EthernetO" use 2514eth.use; ETHERNET1 frame assign portname "Ethernetl" use 2514eth.use; SERIAL0 frame assign portname "SERIALO use 2514wan.use; SERIAL1 frame assign portname "SERIAL1" use 2514wan.use; BITMAP bitmap 2514.bmp locate "ETHERNETO" 56 69 87 79 locate "ETHERNET1" 110 69 141 79 locate "SERIALO" 250 64 302 82 locate "SERIAL1 326 64 377 82: BITMAP-MENU; Ethernet menu "Something" menuitem "Pick me" define string 80 askstring string "Enter something" addconfig "you entered" $ string menuend; Serial0 menu "No items available yet"; PROMPTS "Password ; "" -More- "File: 2514vars.use # variables to use with the Cisco 2514 config scripts (2514 *. *) Defi ne configip 3 define configipx 3 define routeprot 4 define password 30 define enablepassword 30 define ipaddress 15 define ipmask 15 define ipxaddress 20 define ipxencap 15 define lpsz 80 define portname 10 define yesno 3 define frconnector 10 define frdici 3 define frcir 4 define freir 4 define frportspeed 4 define pppmtu 5 define pppauth 4 define pppcompress 10 define ppplapb 3 define ppptacacs 3 define pppconnector 5 define routername 30 File: 2514eth.use assign lpsz "Do you want to configure" $ portname "?" Radio yesno $ lpsz "Yes""No"if $ Yesno =" Yes "then addconfig"! "$ Sportname" configuration commands "addconfig"! "addconfig" interface "$ portname addconfig"! "if $ configip =" Yes "then frame getip ipaddress ipmask askip ipaddress ipmask" Enter IP network that interface is plugged into "addconfig"! "Addconfig"! IP related commands "addconfig"! "Addconfig" ip address "$ ipaddress""$ ipmask addconfig"! "Assignip $ ipaddress $ ipmask endif if $ configipx =" Yes "then frame getip x ipxaddress askstring ipxaddress "Enter IPX network number for this interface" hex maxlen 8 frame radio ipxencap "What type of IPX ethernet encapsulation should be used?""ARPA""Novell-Ether""SAP""SNAP" addconfig "!" addconfig "IPX related commands" addconfig "!" Addconfig "ipx network" $ ipxaddress addconfig "ipx encap" $ ipxencap addconfig "!" Assignipx $ ipxaddress endif endif File: 2514wan.use assign lpsz "Do you want to configure" $ portname "? "radio yesno $ lpsz" Yes "" No "if $ yesno =" Yes "then addconfig"! "addconfig"! "$ portname" configuration commands "addconfig" interface "$ portname addconfig"! "if $ configip =" Yes " then frame assign lpsz "Enter IP address for" $ Portname askip ipaddress ipmask $ lpsz addconfig "!" addconfig "! IP related commands" addconfig "!" addconfig "ip address" $ ipaddress "" $ ipmask endif if $ configipx = "Yes "then frame assign ipsz" Enter IPX network number for "$ portname askstring ipxaddress $ lpsz hex maxlen 8 addconfig"! "addconfig"! IPX related commands "addconfig"! "addconfig" novell address "$ ipxaddress addconfig"! "endif if $ connected =" Frame Relay "then frame assign lpsz" Would you like to configure Frame Relay for "$ Portname"? "assign yesno" Yes " radio yesno $ lpsz "Yes""No" if $ yesno-"Yes" then addconfig "!" radio yesno $ lpsz "Yes""No" if $ yesno = "Yes" then addconfig "!" addconfig "! Set Encapsulation to Frame Relay "addconfig" encapsulation frame-relay "# radio frconnector" What connector type are you using? "" RS-232 "" V.35 "askstring frdlci" What is your local DLCI "MIN 16 MAX 996 # set DLCI command assign lpsz "What is" $ portname "Physical Port Line Speed (Kbps)" askstring frportspeed $ lpsz MIN 1.2 MAX 2048 # set port speed command assign lpsz "What is the Committed Information Rate (CIR) for" $ portname "?" askstring frcir $ lpsz MIN 1.2 MAX 2048 # set CIR command assign lpsz "What is the Excess Information Rate (EIR) for * $ Portname"? "askstring freir $ lpsz MIN 1.2 MAX 2048 # formula goes here # set EIR com mand radio yesno "Do you want to use compression?""Yes""No"# if goes here # set compression command #OTHER PARAMETERS to set (some under advanced button) #frportspeed #frcir #frier #frremname #frconnrtr #frcompress # frnettype #frmaxframe #frcongmonper #frmeasint #frlit #frpvt #frfsef #fret #frcet #frclocking #fremulate #fremulate #frlinestate #map display "<more frame relay questions would normally follow>" endif else if $ connected = "PPP" then frame assign lpsz "Would you like to configure PPP for" Sportname "?" assign yesno "Yes" radio yesno $ lpsz "Yes""No" if $ Yesno = "Yes" then # Set defaults assign ppmtu "1500" assign pppauth "CHAP "assign pppcompress" Stacker "assign ppplapb" No "assign ppptacacs" No "addconfig"! "addconfig"! Set Encapsulation to ppp "addconfig" encapsulation ppp "# radio pppconnector" What connector type are you using? "" RS-232 ""V.35" frame radio pppauth "What authentication protocol are you using?""PAP""CHAP""Off" if $ pppauth <>"Off" then addconf ig "!" addconfig "! PPP Authorization related commands" addconfig "!" addconfig "no ppp authentication" endif endif frame radio pppcompress "What compression method are you using?""Predictor""Stacker""Off" if $ pppcompress <>"Off" then addconfig "!" Addconf "! PPP Compression related commands" addconfig "!" Addconfig "ppp compress" $ pppcompress else if $ pppcompress = "Off" then addconfig "!" Asdconfig "! PPP Compression related commands" addconfig " ! "addconfig" no ppp compression "endif endif frame radio ppplapb" Use LAPB with PPP for reliable link? "" Yes "" No "if $ ppplapb =" Yes "then addconfig"! "addconfig"! PPP LAPB with PPP for reliable link related commands "addconfig"! "addconfig" ppp reliable-link "else addconfig"! "addconfig"! PPP LAPB with PPP for reliable link related commands "addconfig"! "addconfig" no ppp reliable-link "endif frame radio ppptacacs" Use TACACS to verify PPP authentication? "" Yes "" No "if $ ppptacacs =" Yes "then addconfig"! "Addconfig"! Use TA CACS to verify PPP authentication "addconfig" ppp use-tacacs "else addconfig"! "Addconfig"! Use TACACS to verify PPP authentication addconfig "!" Addconfig "no ppp use-tacacs" endif frame assign lpsz "What is the Maximum Transmission Unit for "$ Portname"? "askstring pppmtu $ lpsz MIN 64 MAX 4096 addconfig"! "addconfig"! Set Maximum Transmission unitit "addconfig" mtu "$ pppmtu addconfig" ip mtu "$ pppmtu endif else display $ portname" is connected to a "$ connected" network "display" appropriate guided configuration commands would appear here "endif endif Copyright: 1995 Compaq Computer Corporation

[Brief description of the drawings]

FIG. 1A is a simplified block diagram of a computer system on which a network device configuration tool can be installed. B is a block diagram of a network device configuration tool constructed according to the present invention.

FIG. 2A is a block diagram of a portion of a configuration script of the network device configuration tool of FIG. 1B. B is an expanded block diagram of the attribute section of the configuration script of A. C is an expanded block diagram of the bitmap section of the configuration script of A. D is the configuration of A
FIG. 4 is an expanded block diagram of a bitmap menu section of the script. E is an expanded block diagram of the guided configuration section of A's configuration script.

FIG. 3 is a flowchart of a method for deriving a configuration of a network device according to the present invention;

FIG. 4 is a flowchart of a map editing part of the flowchart of FIG. 3;

FIG. 5 is a flowchart of a method for determining whether two network devices can connect to each other.

FIG. 6 is a flowchart of a method for determining whether two network devices can connect to each other.

FIG. 7 is an explanatory diagram showing a GUI of a configuration manager for constructing a map of a configured network device displaying a constructed network configuration map in a network workspace portion thereof; is there.

FIG. 8 is an illustration showing an example guided configuration GUI for building a configuration script for one network device.

FIG. 9 is an illustration depicting a backplane bitmap of one configured network device.

FIG. 10 is an illustration showing a GUI of the configuration manager of FIG. 7 displaying a modified network configuration map incorporating a newly added and configured device.

FIG. 11 is a flowchart of a method for configuring a remote network device according to another aspect of the invention.

FIG. 12 is an explanatory diagram illustrating a GUI of a pop-up bootp when an environment-unset device requests environment setting information.

Continuation of the front page (71) Applicant 591030868 20555 State Highway 249, Houston, Texas 77070, United States of America

Claims (21)

[Claims] An apparatus for constructing a network device configuration file for use in a computer system having a processor subsystem and a memory subsystem connected by a system bus for bidirectional information exchange. A configuration script stored in a memory subsystem and including a series of executable instructions for constructing a configuration file for a first specific type of network device; A software module that can be executed by a subsystem.
A software module for building a configuration file suitable for uploading to a first specific type of network device by execution of a series of instructions included in the script, wherein the configuration module is configured with the software module. An apparatus, wherein the environment of a network device can be set using a file. 2. The apparatus for constructing a configuration file of a network device according to claim 1, wherein the configuration script further includes a series of configuration commands for generating a request for information. An apparatus comprising a section, wherein information received by the software module in response to the information request is used to build a configuration file. 3. The apparatus for constructing a configuration file of a network device according to claim 2, wherein the configuration script further comprises: a first specific type of network device; An apparatus, comprising: a second section that includes connection rules for connecting to one network device. 4. The apparatus for constructing a configuration file of a network device according to claim 3, wherein the first section of the configuration script further includes a connection rule included in a second section of the configuration script. A first portion corresponding to each of at least one other network device of a particular type, wherein the first portion includes a network device for which a configuration file is being built. An apparatus comprising a subset of a series of configuration commands that is executed only when connected to one network device of a particular type. 5. The apparatus for constructing a configuration file of a network device according to claim 4, wherein the configuration script further comprises a third section defining a backplane bitmap of the network device. An apparatus, comprising: 6. The apparatus for constructing a configuration file of a network device according to claim 5, wherein the third section of the configuration script further comprises: a bitmap for generating a backplane bitmap. A first part defining a file, a second part providing the location of the connected interface on the backplane bitmap, and a third part defining at least one overlay bitmap with respect to the backplane bitmap. And a third part comprising an overlay overlay for each of the at least one other network device of a particular type defined in the connection rules contained in the second section of the configuration script. bitmap And wherein the the containing. 7. The apparatus for constructing a configuration file of a network device according to claim 6, wherein the configuration script further comprises a user-selectable set of commands for each of the connected interfaces. A fourth section comprising: 8. A computer system having a system bus, each coupled to the system bus for bidirectional data exchange, and having a processor subsystem, a memory subsystem, and a user interface. Apparatus for use in constructing a network configuration map composed of at least two interconnected network entities selected from a series of network entities, stored in a memory subsystem. A series of configuration scripts, each comprising a configuration script corresponding to one of a series of network entities, wherein each of the series of configuration scripts comprises a first and a second part. It comprises a first section made, icon for generating a display icon corresponding ones in a series of network entities in the first portion of each of a series of configuration scripts
A file, wherein the second part of each of the series of configuration scripts includes a set of connection rules for a corresponding one of the series of network entities. A first software module executable by the subsystem for creating a workspace and placing at least two icons on the workspace in response to a first input received via a user interface; , The set of connection rules contained in the second part of the first section of the configuration script corresponding to the first and second network entities represented by the first and second icons is the When permitting the connection of the first and second network entities, the user interface A first software program for constructing a network configuration map by connecting first and second icons placed on the workspace in response to a second input received via the interface. An apparatus comprising a module. 9. The apparatus for constructing a network configuration map according to claim 8, wherein at least one of the series of configuration scripts further comprises a second section, wherein the series of configuration scripts. The second section included in at least one of the network
The apparatus further includes a series of executable instructions for building a configuration file for the entity, the apparatus further responsive to a third user input by selecting one of the icons located on the map for the configuration. And a second software module executable by the processor subsystem, the second software module having at least one configuration script corresponding to the selected icon having a second section. Executes the sequence of instructions contained in the second section of the configuration script to build a configuration file if one of the configuration scripts is selected, and selects the pre-built configuration file Is An apparatus for constructing a configuration file by adding to the icon. 10. The apparatus for constructing a network configuration map according to claim 9, wherein the series of instructions included in each of the at least one configuration script having a second section further comprises: An apparatus comprising a series of configuration commands for generating a request, wherein in response to the information request, information received by a second software module is used to build a configuration file. 11. The apparatus for constructing a network configuration map according to claim 10, wherein each second section of at least one configuration script having a second section further comprises a configuration script. A first section corresponding to each of a series of network entities defined in a set of connection rules contained in a first section of the first section of the first section of the first section of the second section. Is that the network entity that is the target of the configuration file being built is a network entity defined by a set of connection rules contained in the first part of the first section of the configuration script. Execute only when connected to an entity Apparatus characterized by containing a subset of the series of configuration commands. 12. The apparatus for constructing a network configuration map according to claim 11, wherein the first section of each of the series of configuration scripts further corresponds to one of the series of network entities. A third part containing a name of the network entity on the map when an icon corresponding to the configuration script is placed on the map. An apparatus characterized by the above. 13. Uploading to a network device to enable configuration,
Configuration for network devices
A method for building a file, providing a configuration script including a series of executable instructions for building a configuration file of a first specific type of network device; Executing a sequence of instructions contained in a configuration script to build a configuration file. 14. The method of constructing a configuration file of a network device according to claim 13, wherein providing a configuration script including a series of executable instructions further comprises a series of configuration commands. Providing a configuration script that includes a first section that includes: 15. The method of constructing a configuration file for a network device according to claim 14, further comprising executing a series of configuration commands included in a first section of a configuration script. Thereby generating an information request, and constructing a configuration file using information received in response to the information request. 16. The method of constructing a configuration file for a network device according to claim 15, wherein the step of providing a configuration script including a series of executable instructions further comprises: A second including a set of connection rules for connection of the network device to at least one other network device of a particular type.
Providing a configuration script that includes a section. 17. The method of constructing a configuration file for a network device according to claim 16, wherein providing a configuration script including a series of executable instructions further comprises: Providing a configuration script including a first portion corresponding to each of the at least one other network device of a particular type, as defined in a connection rule that includes two sections; Each is a set of configuration
A method comprising a subset of commands. 18. The method for constructing a configuration file for a network device according to claim 17, further comprising the step of: determining whether the network device that is the object of the configuration file being constructed has another specific type. Performing a subset of a series of configuration commands included in each of the first portions only when connected to one of the network devices. 19. A method for constructing a network configuration map consisting of at least two interconnected network entities selected from a series of network entities, each corresponding to one of the series of network entities. Providing a series of configuration scripts including a first section comprising first and second parts, wherein each first part of the series of configuration scripts comprises a series of network scripts. An icon file for generating an icon representing a corresponding one of the entities, wherein a second portion of each of the set of configuration scripts includes a set of sets for a corresponding one of the set of network entities. Connection rules The method further comprising: generating a first icon representing a first one of the network entities; and a second one of a second one of the network entities. Generating an icon for the first and second network entities represented by the first and second icons, a series of steps included in a second portion of the first section of the configuration script corresponding to the first and second network entities Connecting the first and second icons if the connection rules allow connection of the first and second network entities. 20. The method for constructing a network configuration map according to claim 19,
The step of providing a set of configuration scripts further provides at least one configuration script including a second section having a set of executable instructions for building a configuration file of the network entity. A method comprising steps. 21. The method for constructing a network configuration map according to claim 20, wherein the method further comprises: selecting one of the icons located on the map for the configuration. Constructing a configuration file for the network device represented by the icon if the configuration script for the network device represented by the selected icon is a configuration script having a second section; Executing the set of instructions contained in the second section of the configuration script on the network device represented by the selected icon; and Method characterized in that it includes a step to add the selected icon.